Sec. 30.20] BIBLIOGRAPHY 585 



deamination and reamination of amino acids in the proteins of normal animals, 



Science, 89, 272-273 (1939). 

 D 240 Schoenheimer, R., and D. Rittenberg: Deuterium as an indicator in the study 



of intermediary metabolism. I. /. Biol. Chcm., Ill, 163-168 (1935). 

 D 241 Schoenheimer, R., and D. Rittenberg: Deuterium as an indicator in the study of 



intermediary metabolism. III. The role of the fat tissues, /. Biol. Chem., Ill, 



175-181 (1935). 

 D 242 Schoenheimer, R., and D. Rittenberg: Deuterium as an indicator in the study of 



intermediary metabolism. V. The desaturation of fatty acids in the organism, 



J. Biol. Chem., 113, 505-510 (1936). 

 D 243 Schoenheimer, R., and D. Rittenberg: Deuterium as indicator in study of 



intermediary metabolism; synthesis and destruction of fatty acids in organism, 



J. Biol. Chem., 114, 381-396 (1936). 

 D 244 Schoenheimer, R., and D. Rittenberg: Deuterium as indicator in study of 



intermediary metabolism. IX. Conversion of stearic acid into palmitic acid in 



organism, /. Biol. Chen., 120, 155-165 (1937). 

 D 245 Schoenheimer, R., D. Rittenberg, B. N. Berg, and L. Rotjsselot: Deuterium 



as an indicator in the study of intermediary metabolism. VII. Studies in bile 



acid formation, J. Biol. Chem., 115, 635-640 (1936). 

 D 246 Schoenheimer, R., D. Rittenberg, and M. f Graff: Deuterium as an indicator 



in the study of intermediary metabolism. IV. The mechanism of coprosterol 



formation, /. Biol. Chcm., Ill, 183-192 (1935). 

 D 247 Schon, M.: Die biologischen Wirkungen des schweren Wassers, Miinch. med. 



Wochnschr., 81, 1277-1279 (1934). 

 D 248 Shoup, C. S., and S. L. Meyer: The action of deuterium oxide in low concen- 

 tration on the course of gas-production by brewer's yeast, /. Term. Acad. Sci., 



10, 127-130 (1935). 

 D 249 Selwood, P. W.: Heavy water, /. Chcm. Education, 18, 515-520 (1941). 

 D 250 Shapiro, A., H. Roster, D. Rittenberg, and R. Schoenheimer: The origin of 



fecal fat in the absence of bile, studied with deuterium as an indicator, Am. J. 



Physiol., 117, 525-528 (1936). 

 D 251 Shtbata, K., and A. Watanabe: Zellatmung und Kohlensaure-Assimilation in 



schwerem Wasser, Acta Phytochim. (Japan), 9, 107-114 (1936). 

 D 252 Silvertri, S.: II deuterio in biologia, Fisiol. e med. (Rome), 10, 291-297 



(1939). 

 D 253 Simmonds, S., M. Cohn, J. P. Chandler, and V. du Vigneaud: The utilization 



of the methyl groups of choline in the biological synthesis of methionine, /. Biol. 



Chem,, 149, 519-525 (1943). 

 D 254 Simmonds, S., M. Cohn, and du Vigneaud: A study of transmethylation with 



methionine containing varying amounts of deuterium in the methyl group, J. 



Biol. Chem., 170, 631-637 (1947). 

 D 255 Simmonds, S., and V. du Vigneaud: Transmethylation as a metabolic process 



in man, /. Biol, Chem., 146, 685-686 (1942). 

 D 256 Simmonds, S., and V. du Vigneaud: A further study of the lability of the methyl 



group of creatine, Proc. Soc, Exptl, Biol. Med., 59, 293-294 (1945). 

 D 257 Smith, P. R., J. Trace, and H. G. Barbour: Fate of deuterium in mammalian 



body, /. Biol. Chcm., 116, 371-376 (1936). 

 D 258 Sperry, W. M., and H. Waelsch: Lipid metabolism in brain and other tissues 



of the adult rat, /. Biol, Chem. (Proc. Am. Soc. Biol. Chem. 34th Meeting), 133, 



xciv (1940). 



